Scented attachment for containers

ABSTRACT

Aspects of the disclosure include an attachment for providing a scent to a container. In some aspects, a scent delivery system includes a bottle including a collar and a ledge structure each extending circumferentially outward; a scent ring loaded with a volatile chemical agent to emanate and generate a scent and including an interior protruding structure projecting from an interior wall of the ring, the scent ring configured to fasten around the neck of the bottle based on contact between the interior protruding structure and the ledge structure of the bottle; and a cap reversibly attachable to the bottle and including an interior rim structure that circumferentially projects from the interior of the cap, where the cap is structured to enclose the scent ring in a compartment formed between the collar and the interior rim structure when the cap is securely fastened to the bottle and trap the scent.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 15/782,720 entitled “SCENTED ATTACHMENT FOR CONTAINERS” and filed on Oct. 12, 2017, which is a continuation of U.S. patent application Ser. No. 15/588,571 entitled “SCENTED ATTACHMENT FOR CONTAINERS” and filed on May 5, 2017, now U.S. Pat. No. 9,801,969, which is a continuation-in-part of U.S. patent application Ser. No. 13/429,300 entitled “SCENTED ATTACHMENT FOR CONTAINERS” and filed on Mar. 23, 2012, which claims the benefits and priority of U.S. Provisional Patent Application No. 61/467,888, entitled “SCENTED ATTACHMENT FOR CONTAINERS”, which was filed on Mar. 25, 2011. The entire contents of the aforementioned patent applications are incorporated by reference as part of the disclosure of this application.

BACKGROUND

The nasal cavity has specialized sensory cells that mediate olfaction. The main olfactory system of humans and animals detects volatile chemicals, and the accessory olfactory system detects fluid-phase chemicals. Olfaction like taste is a form of chemoreception. The chemicals that activate the olfactory system, generally at very low concentrations, are called odorants. Accordingly, there is a commonality between the perception of smell and the perception of taste. In fact, in certain instances, the sense of smell may supplement and/or otherwise enhance the sense of taste. For instance, it is well known that maladies affecting the sense of smell adversely affect the sense of taste. As taste plays an important role in ones motivation for consuming a food or drink article, there is an interest in the art for agents that enhance the perception of taste of food and drink articles. The present disclosure addresses these and other such needs.

SUMMARY

Aspects of the disclosure include an attachment for providing a scent to a container. In certain instances, the scented attachment is configured for being associated with a container, such as a drink or a food storage container. The scented attachment may be associated with the container in any suitable manner. In some instances, the scented attachment is of a size or shape so as to fit around a circumference of the container. Thus, the scented attachment may be a sleeve, a wrap, a ring, or the like. In another instance, the scented attachment may be configured for being associated to the container with a suitable attachment mechanism. For instance, the scented attachment may include a substrate having a first and a second surface. The first surface comprises an attachment mechanism for associating the scented attachment to the container; and a second surface comprises a scent. In such a manner, a scented agent may be associated with a food or drink container so as to enhance the perception of the taste of the food or drink contained therein, thereby, enhancing the experience and/or ones motivation in eating or drinking. Also provided is a method for its use and a system for providing a scent to a container that includes a scented attachment, as described herein, and a container that is configured for being associated with the container.

In some aspects, a scent delivery system for a beverage container includes a bottle to contain a fluid beverage, the bottle structured to include a body region and a neck region, the bottle including a collar that extends outward and circumferentially around the neck region, and a ledge structure that extends outward and circumferentially around the neck region and is positioned above the collar; a scent ring including a body loaded with a volatile chemical agent to emanate from the body of the scent ring to generate a scent, the scent ring structured to include at least one interior protruding structure that projects from an interior wall of the body of the scent ring, in which the scent ring is configured to fasten around the neck region of the bottle based on contact between the at least one interior protruding structure of the scent ring and the ledge structure of the bottle, in which the at least one interior protruding structure is positioned below the ledge structure; and a cap reversibly attachable to the bottle, the cap including an interior rim structure that projects from and circumferentially around an interior cap wall of the cap, in which the cap is structured to enclose the scent ring in a compartment formed between the collar of the bottle and the interior rim structure of the cap when the cap is securely fastened to the bottle, in which the system is configured to trap the scent from the scent ring in the compartment when the cap is securely attached to the bottle and to release the scent into an outer environment of the bottle when the cap is detached from the bottle.

BRIEF DESCRIPTION OF THE DRAWINGS

According to common practice, the various features of the drawings may not be drawn to-scale. Rather, the dimensions of the various features may be arbitrarily expanded or reduced for clarity. Included in the drawings are the following figures:

FIGS. 1A and 1B illustrate instances of a scented ring in accordance with the disclosure, in which FIG. 1A represents one instance of the scented ring, and FIG. 1B represents another instance of the scented ring.

FIGS. 2A and 2B illustrate instances of a scented strip in accordance with the disclosure, in which FIG. 2A illustrates a scented strip having a main body and a removable portion with a scented portion within the main body, and FIG. 2B illustrates an instance of a scented strip having a removable portion that is configured for detachably interacting with a lid of the container.

FIG. 3A illustrates another instance of a scented attachment where the scent is integrated into at least a portion of the container.

FIG. 3B illustrates another instance of a scented attachment.

FIG. 4 illustrates another instance of a scented attachment of FIG. 3B.

FIG. 5 illustrates a scented capsule.

FIG. 6 shows an exploded view of an example embodiment of a scented bottle cap system.

FIG. 7 shows an example embodiment of the scented ring of the scented bottle cap system.

FIGS. 8A and 8B show example embodiments of the cap of the scented bottle cap system.

FIG. 9 shows a cross-sectional view of the scented ring coupled with the cap.

FIG. 10A shows a cross-sectional view of the scented bottle cap system when the scented ring, the cap and the bottle are assembled.

FIGS. 10B, 10C and 10D show magnified views of aspects of the scented bottle cap system shown in FIG. 10A.

FIGS. 11A and 11B show example embodiments of the scented ring of the scented bottle cap system.

FIGS. 12A, 12B and 12C show example embodiments of the scented ring of the scented bottle cap system.

FIG. 13 shows a flow diagram an example embodiment of a method to manufacture a scented bottle cap system in accordance with embodiments of the disclosure.

Before the present disclosure is further described, it is to be understood that this disclosure is not limited to particular instances described, as such may of course vary. It is also to be understood that the terminology used herein is for the purpose of describing particular instances only, and is not intended to be limiting. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one skilled in the art to which this invention belongs.

Where a range of values is provided, it is understood that each intervening value, to the tenth of the unit of the lower limit unless the context clearly dictates otherwise, between the upper and lower limit of that range and any other stated or intervening value in that stated range, is encompassed within the invention. The upper and lower limits of these smaller ranges may independently be included in the smaller ranges, and are also encompassed within the invention, subject to any specifically excluded limit in the stated range. Where the stated range includes one or both of the limits, ranges excluding either or both of those included limits are also included in the invention.

Throughout this application, various publications, patents and published patent applications may be cited. The disclosures of these publications, patents and published patent applications referenced in this application are hereby incorporated by reference in their entirety into the present disclosure. Citation herein of a publication, patent, or published patent application is not an admission of said publication, patent, or published patent application as prior art.

It must be noted that as used herein and in the appended claims, the singular forms “a”, “and”, and “the” include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to an “opening” may include a plurality of such openings, and reference to “the gripping element” includes reference to one or more gripping elements and equivalents thereof known to those skilled in the art, and so forth. It is further noted that the claims may be drafted to exclude any optional element. As such, this statement is intended to serve as antecedent basis for use of such exclusive terminology as “solely”, “only” and the like, in connection with the recitation of claim elements, or the use of a “negative” limitation.

As will be apparent to those of skill in the art upon reading this disclosure, each of the individual embodiments described and illustrated herein has discrete components and features which may be readily separated from or combined with the features of any of the other several embodiments without departing from the scope or spirit of the present invention.

DETAILED DESCRIPTION

Aspects of the disclosure include an attachment for providing a scent to a container. In certain instances, the attachment is a ring or a sticker that is configured for removable association with a container, such as a food or a drink container. In some instances, the ring is configured for wrapping around a portion of the container. In another instance, the sticker is configured for being removably stuck onto a portion of the container. The attachment is configured such that during use of the container having the scented attachment, a subjects' olfactory system is activated by the scent of the attachment, which thereby enhances the sensation, e.g., the perception of taste, of eating or drinking the food or drink item that is contained within the container.

In some instances, the ring includes a circular body with a lumen, wherein the body is configured for being removably associated with a container. For instance, the scented ring includes a stretchable body that is adapted for being fit over a portion of the container. In certain embodiments, the body of the ring is comprised of an elastic material that deforms in a manner such that the diameter of the ring may increase when a stretching force is applied to the ring and/or return to its normal state once the stretching force has been removed. In a manner such as this, the ring may be fit over a portion of the container, such as a neck of a bottle, so as to enhance the perception of consuming the item contained within the container.

In another instance, the attachment may be configured as a sticking element and may include a substrate having a first and a second surface. The first surface may include an attachment mechanism for associating the scented attachment to the container; and a second surface comprises a scent. The attachment surface may include an adhesive or other attachment mechanism, such that it may adhere to a surface of the container. The scented surface may include a matrix configured for releasably holding a scent that may be released there form during the use of the container.

The subject scented attachments of the disclosure will be described first, followed by a description of the methods of their use and the systems in which such scented attachments may be employed. A discussion of representative uses of the subject materials is also presented.

Scented Attachments, Systems and Methods of Use

As can be seen with respect to FIGS. 1A and 1B, the disclosure provides an attachment for providing a scent to an object, such as a container. In some instances, the attachment 10 is a ring that is configured for providing a scent to a container, e.g., a food or drink container 20. By “scent” is meant any agent that is capable of being incorporated within the attachment, being released there from, and stimulating an olfactory sensation of a subject.

For instance, in certain instances, a scent may be a chemical agent that stimulates a chemoreceptor of the olfactory system of the subject or otherwise stimulates sense of smell and/or taste of a subject. For example, in certain instances, a scent may be a volatile compound or odorant, such as a fragrant or other essential oil. Where the scent is a fragrant oil, it may be a food derived oil such as a citrus oil, a mint oil, anise oil, cardamom oil, cinnamon oil, clove oil, coriander oil, eucalyptus oil, fennel oil, lemongrass oil, and/or a nutmeg oil, and the like. The scent may be a citrus oil such as a lemon oil, a lime oil, a neroli oil, and/or an orange oil, and the like. In certain instances, scent comprises a mint oil such as a peppermint oil and/or spearmint oil, and the like.

The scented essential oil may be incorporated within the attachment in any suitable manner. For instance, the attachment may include a matrix within which the essential oil may be incorporated. The matrix may include a liquid or a gel, which may include the scent. The liquid or gel may be associated with the material employed to fabricate the attachment. For example, the attachment may be constructed in any suitable manner and may be fabricated from any suitable material. In certain instances, a suitable material may be one or more of an elastic material, a foamed or vulcanized rubber, neoprene, polyurethane, nylon, lycra, plastic, silicone, and/or a silicone containing material. Hence, the material from which the attachment is produced may be fabricated into a ring or sheet and compression or liquid injection molded into a protective device in accordance with some embodiments of the disclosure.

For instance, the body of the attachment may be fabricated using compression molding, during which process an element containing an essential oil is added thereto either during or after the molding process. Additionally, a colorant or other chemical additive may be added to the sheet blanks, which become the compression molded end product, for instance, to color and/or to aid in the release of the product from the mold. In certain instances, the attachment is made from a single piece of shaped or otherwise molded material and may include a cavity into which a scented material, e.g., a gel or substrate containing an essential oil associated therewith is injected or otherwise inserted into the lumen of the scented attachment. The main body of the attachment may comprise elastic properties, such that the attachment can deform to receive a portion of a container, e.g., a neck thereof, and then reform to its original configuration automatically, that is without the need for external manipulation. In certain instances, the attachment may include a main body that is pre-formed into a substrate onto one surface of which a gel or other matrix containing a scented agent, e.g., an essential oil, is added; and to an opposing surface, a suitable attachment mechanism, e.g., an adhesive, is added. One or more removable covers may be added to cover one or more of the scented surface and/or the attachment surface.

The attachment can be made into any desired shape such as a tube, a square or rectangular box, a triangular, pyramidal or circular shape, or the like. And thus the attachment may be configured for fitting around suitable container, such as a round, circular, triangular, square, rectangular, cube shaped container, or the like, and may be of regular or irregular dimensions, so as to fit a variety of bottles, jars, and the like. In certain instances, a scented attachment such as attachment 10 shown in FIGS. 1A and 1B and the material from which it is fabricated is hygienic, light weight and flexible such that the material is capable of expanding so as to allow the attachment to expand around the contours of the container 20 to be received thereon and snuggly fits around the container 20, and yet be configured for returning to its original configuration once the container 20 has been removed from the attachment.

Accordingly, the attachment 10 may be of any suitable size and shape, but is typically of a size and shape so as to be non-obstructively associated with the container 20. The container 20 may be any container such as a container for storing a beverage or other food article. The container 20 may be of any size or any shape, but is typically of a size and a shape suitable for containing a drink or food product, such as a drink or food product that is meant to be readily consumed by a subject. For instance, the container 20 may be a plastic or glass container, a metal or metal alloy container, or the like. If the container 20 is made of glass, the glass may be of any suitable type of glass, such as silicon dioxide, sodalime glass, pyrex, lead crystal, and the like. If the container 20 is made of metal, the metal may be of any suitable type of metal, such as aluminum, steel (e.g., stainless steel), tin, and the like. The container 20 for use in accordance with various embodiments of the scented attachment disclosed herein may also include alloys of any suitable metals. The container 20 may also be a plastic container, such as a TUPPERWARE® or RUBBERMAID® or GLAD® container.

The container 20 may contain any material, such as a solid, liquid, or gas. In certain instances, the container 20 is a fluid container that contains a liquid. The liquid within the container may be any form of liquid. In certain embodiments, the liquid is a liquid that is meant to be imbibed. For instance, in certain embodiments, the liquid is a liquid such as, water, soda, a liquid nutrient, a juice, an electrolyte, a sports drink, an alcoholic beverage, and the like. In certain embodiments, the container 20 is a solid object container, for instance, a food container that contains a solid food. For example, the attachment may be configured for being associated with a bottle, a can, a thermos, a camel back container, a canteen, or other such drinking container. In certain instances, the container may be a food container, such as a container for the storage of a food.

The attachment 10 may be associated with the container 20 in any suitable manner. In some instances, the attachment 10 is of a size or shape so as to fit around a circumference of the container 20. Thus, the attachment 10 may be a ring, sleeve, wrap, or the like that has been fabricated in such a manner so as to include a scent therein. For instance, in certain instances, the attachment 10 may be a ring that may be flat or tubular and may include an opening through which a container may be inserted. Accordingly, in certain instances, the ring attachment may be of a size and a shape so as to fit around a portion, e.g., the neck, of a drinking container. The ring, therefore, may have a diameter such that it can slip onto and/or around the neck of a bottle, but not slide down the length of the bottle.

As described above, the attachment 10 may be made of any suitable material, but in certain instances, it is made of a material that is capable of stretching, and thus the diameter of the ring may be configured for moving from a first, smaller diameter to a second, larger diameter when stretched, and/or for returning from the second stretched diameter toward the first, non-stretched diameter in the absence of a suitable stretching force. In a manner such as this the attachment 10 such as the ring embodiments may be configured for fitting snuggly around a portion of the container 20, e.g., the neck, the middle, and/or bottom of the container.

As illustrated in FIG. 1A, the scented attachment 10 can be structured as a ring and may be fabricated as single piece from a unitary material. The material may have a length 14 the matches its width 12, a length 14 less than its width 12, or a length 14 that is greater than its width 12. For instance, in certain embodiments, the length 14 may be in a range from about 2 or 3 mm or less to about 20 cm or more, such as about 5 or 10 mm to about 12 or 15 cm, including about 2 or 5 cm to about 8 to about 10 cm. In certain instances of the attachment 10 structured as a ring, the ring includes a circumference and the length 14 is measured from one point of a circumference moving in a single direction away from and back to that same point on the circumference. In certain embodiments, for example, dependent on the material from which the ring is made, the length 14 may increase as the material stretches. The width 12 of the material may correspond to that of the length 14 but typically may range from about 2 or 3 mm or less to about 15 cm or more, such as from about 5 or 10 mm to about 12 or 14 cm, including about 2 or 5 cm to about 8 to about 10 cm. The thickness of the material may range from about 1 mm or less to about 10 mm or more, such as from about 2 or 3 mm to about 8 or 9 mm, including from about 4 or 5 mm to about 6 or 7 mm.

In certain instances of the attachment 10 structured as a ring, as shown in FIG. 1A, the attachment ring may be dimensioned to cover a substantial portion of the neck 24 of a container 20, e.g., a bottle, while leaving the main body 22 uncovered. For instance, where an attachment ring is provided so as to generate a scent detectable by a subject using the container, it may be useful to have an attachment ring that does not cover the entire or even a substantial portion of the body 22 of the container 20, e.g., as this will be less expensive to produce and better for the environment. Accordingly, in some instances, the attachment ring covers all of the neck of the bottle, a top half of the neck of the bottle, or a bottom half of the neck of the bottle. As can be seen with respect to FIG. 1B, in some instances, the scented attachment ring 10 is dimensioned to fit around a top portion 26 of the neck 24 of the container 20. In this example implementation, the scented attachment ring 10 is configured for covering only the top portion 26 of the neck 24 of the container 20 (e.g., bottle) so as to provide a scent to a person, for instance, while drinking from the container 20.

FIG. 2A represents another instance of a scented attachment in accordance with embodiments of the disclosure. The attachment 10 includes a main body 16 and a removable portion 18. The main body 16 of the attachment 10 may be configured for encasing a scented strip 40 therein. The scented strip 40 includes a scented agent, e.g., an essential oil, that is associated there with. The removable portion 18 may be removed from the main body 16 of the attachment 10 and thereby release the stored scent encased therein. The removable portion 18 may be associated with a lid of the container or otherwise removable. For example, when the lid is removed, the removable portion 18 is separated from the main body 16 of the attachment 10, and the scent from scented strip 40 is thereby released. In this configuration, the removable portion 18 may be a tab that may be pulled off by a user prior to drinking, or may be associated with the lid in such a manner that as the lid is removed the tab is removed.

For instance, as seen with reference to FIG. 2B, the removable portion 18 may be associated with a lid 30 in such a manner that as the lid is removed the removable portion 18 is disassociated from the main body 16 of the attachment 10. For example, the lid 30 may be configured such that by twisting it relative to the container 20 it may be removed from the container 20, and likewise, the scented attachment 10 may be configured such that as the lid 30 twists, the removable portion 18 also twist relative to the main body 16 along with the lid 30. Thus, as the lid 30 is removed, so is the removable portion 18 and the scented strip 40 is exposed, thereby releasing the scent. In some instances, the lid 30 may include teeth 32 which are associated with the main body 16 and the removable portion 18, such that as the lid 30 is removed the teeth 32 separate from the main body 16 causing the removable portion 18 to be removed from the main body 16.

In certain instances, as with reference to FIG. 3A, the scented attachment 10 may actually be incorporated into the material of the container 20 so as to form a scented area 41. The scented area 41 may be formulated by incorporating an essential oil into the container 20 at an area near the neck 24 of the container 20. A removable cover (not shown) may be placed over the scented area 41 so as to lock in the scent until use. For instance, a user may remove the cover from the scented area 41 prior to opening the container 20 and consuming the drink or food therein.

FIG. 3B illustrates an instance of a scented attachment 10 wherein the attachment is configured for being associated to the container 20 with a suitable attachment mechanism. For instance, the attachment 10 may include a substrate having a first and a second surface. The first surface comprises an attachment mechanism for associating the scented attachment 10 to the container 20; and a second surface comprises a scent, e.g. an essential oil. The attachment mechanism may be a suitable adhesive, a snap and button configuration, a hook and loop fastener attachment (e.g., Velcro™), and the like. The adhesive may be used to associate the scented attachment 10 to the container 20. Alternatively, a Velcro™ strip may be used to attach the attachment 10 to the container 20. In such a manner the scented attachment 10 may be removable from the container 20. Further, the scented attachment 10 may be a separate element from the container 20, made to be separately obtained and attached thereto, or may be pre-attached to the container 20.

FIG. 4 illustrates an instance of a scented attachment for a container 20 that is configured as a can. In some instances, the scented attachment 10 is positioned on a top portion 21 of the can 20 next to the opening mechanism 23. The scented attachment 10 may be previously associated to the can 20 or may be a separate element that is obtained and attached to the can, such as immediately prior to use of the can. The scented attachment 10 may be configured such and associated with the opening mechanism 23 of the can 20 such that by opening the can the scent is released by the attachment 10.

FIG. 5 illustrates a scented attachment for a scented capsule, in which the attachment 10 includes a main body 15 and a scented material 55 therein. The main body 15 may be such that when cracked one or more pores forms and the scent 55 is released there from.

In some aspects in accordance with the present technology, the scented articles, apparatuses and systems are directed to a protective sleeve system. In certain embodiments, for example, the protective sleeve system is configured for both holding and protecting a held container. Accordingly, in certain embodiments, the protective sleeve system includes a protective sleeve (such as described above), which includes a tubular body, configured for holding a container, and at least a first opening, adapted for receiving the container, and in addition to the protective sleeve, the protective sleeve system may include a suitable container, such as those described above, for instance, a bottle, can, or other food storage element that is adapted to be fit and/or held within the protective sleeve.

For instance, in certain instances, the scented attachment may be included in a system that includes a suitable container, such as a glass or plastic bottle. For example, the container may be a water or sports drink bottle, or the like. The attachment may be previously associated with the bottle or may be a separate element that is meant to be attached to the container by the user of the container prior to use. The attachment may be a substrate having a scented surface having a cover thereon and may include an adhesive surface additionally having a cover thereon. The cover over the adhesive may be removed and the substrate associated with the container by the user. The cover covering the scented surface may then be removed by the user prior to consuming the drink or food item therein. In an alternative embodiment, the attachment may be a ring that is configured for being slid over an end of the container and associated thereby with the container, for instance, a neck of the container, e.g., by a user.

Examples of the scented attachment for containers include the following.

In some embodiments of the scented attachment (example A1), a scented attachment for association with a container comprises a substrate having first and second surfaces, the first surface comprises an attachment mechanism for associating the scented attachment to the container; and the second surface comprises a scent.

Example A2 includes the scented attachment of example A1, further comprising a third surface, wherein the third surface detachably covers the second surface thereby preventing the scent from being released when the third surface covers the second surface.

Example A3 includes the scented attachment of example A1, wherein the second surface comprises a matrix which matrix comprises the scent.

Example A4 includes the scented attachment of example A3, wherein the matrix comprises a gel, which gel comprises the scent.

Example A5 includes the scented attachment of example A4, wherein scent comprises a fragrant oil.

Example A6 includes the scented attachment of example A5, wherein the fragrant oil comprises a citrus oil, a mint oil, anise oil, cardamom oil, cinnamon oil, clove oil, coriander oil, eucalyptus oil, fennel oil, lemongrass oil, and nutmeg oil.

Example A7 includes the scented attachment of example A6, wherein the citrus oil comprises an oil selected from the group consisting of a lemon oil, a lime oil, a neroli oil, and orange oil.

Example A8 includes the scented attachment of example A6, wherein the mint oil comprises an oil selected from the group consisting of peppermint oil and spearmint oil.

Example A9 includes the scented attachment of example A1, wherein the substrate comprises a ring having an opening configured for receiving a portion of a bottle therein.

Example A10 includes the scented attachment of example A9, wherein the ring is removably associated with a lid which lid is configured for being sealably associated with a bottle.

Example A11 includes the scented attachment of example A10, wherein when the lid is removed from the bottle the lid detaches from the ring thereby releasing the scent.

Example A12 includes the scented attachment of example A11, wherein the ring comprises silicon.

Example A13 includes the scented attachment of example A11, wherein the ring comprises elastic.

Example A14 includes the scented attachment of example A13, wherein the ring comprises one or more identifying colors.

Example A15 includes the scented attachment of example A1, wherein said attachment element comprises one or more of an adhesive or a loop and hook attachment.

Example A16 includes the scented attachment of example A11, wherein the scent is encapsulated within a burstable seal.

Example A17 includes the scented attachment of example A16, wherein the scent is released when the seal is burst.

Example A18 includes the scented attachment of example A1, wherein the scented attachment is associated with a can.

Example A19 includes the scented attachment of example A18, wherein the scented attachment releases a scent when the can is opened.

In some embodiments of the scented attachment (example A20), a container comprises a body for holding matter, the body being enclosed on all sides except an opening; a scented attachment provided on the body near the opening; and a cap that removably covers the opening.

Scented Bottle Cap Systems and Methods of Fabrication and Use

In some aspects of the scented attachment in accordance with embodiments of the present technology, a scented bottle cap system includes a scented ring attachable to a bottle, e.g., disposed around the neck of the bottle, and a cap removably attachable to the bottle and configured to enclose the scented ring in a hollow region between the cap and the bottle when the cap is securely attached to the bottle, such that the scented bottle cap system entraps a scent from the scented ring in the hollow region when the cap is securely attached to the bottle and controllably releases the scent into the proximate environment of the bottle when the cap is removably detached from the bottle. In implementations of the scented bottle cap system, for example, the scent can include one or more chemical agents in a volatile compound or aggregate that provides a pleasing odorant to the user of the scented bottle cap system that stimulates a corresponding chemoreceptor of the user's olfactory system to enhance the user's sense of smell and/or taste of a drinkable fluid in the bottle. For example, the odorous compound or aggregate can include an oil, a liquid or gel (e.g., carried in a matrix), or a resin or powder. In various embodiments, the scented ring can contain the scent by various methods, including incorporating the scent into the material of the ring, e.g., during a fabrication process to produce the ring. In some embodiments, for example, the scented ring can be fabricated using a plastic material, e.g., polyethylene, polyurethane or other example materials described herein, that is loaded with the odorous compound or aggregate that produces the scent to a desired concentration, e.g., which can be selected based on multiple variables including the type of scent (e.g., degree of pungency of a particular scent).

FIG. 6 shows a diagram featuring an exploded view of an example embodiment 600 of the scented bottle cap system. The system 600 includes a scented ring 610 configured to attach around the finish region of the neck of a bottle 630, and a cap 620 to securely attach to the bottle 630 and enclose the scented ring 610 in a hollow region or cavity formed in the interior of the cap 620 and with a circumferential structure protruding from the neck of the bottle 630.

In the example shown in FIG. 6, the bottle 630 includes a collar 631, also referred to as a neck ring or a transfer thread, that protrudes outward and circumferentially around the neck of the bottle 630. In the example embodiment of the bottle 630, the collar 631 provides the circumferential structure to contact the bottom end of the cap 620 to form the hollow region or cavity in the interior of the cap 620. The bottle 630 includes a set of threads 632 that wrap around finish region of the neck of the bottle 630, above the collar 631, to provide a mechanism to securely attach to and removably detach the cap 620 from the bottle 630 by twisting the cap on and off, e.g., eliminating the need for an opener. As shown in FIG. 8A, the cap 620 includes a corresponding set of threads 622 protruding from the interior region of the cap 620 that interact with the set of threads 632 of the bottle 630 for attachment and detachment. The bottle 630 includes a terminus at the end of the neck that provides an opening to the interior of the bottle that contains a fluid (e.g., beverage such as water, soda, milk, juice, alcoholic beverage, etc.), which is filled and dispensed from the bottle through the opening. The terminus provides a sealing surface 633 at the top of the terminus that is structured to contact a corresponding sealing surface 623 of the cap 620, shown in FIG. 9, e.g., which prevents the fluid from leaking out of the bottle 630 when the cap 620 is securely attached thereto. For example, the sealing surface 633 is structured to be smooth and free from any imperfections that would prevent a consistent seal when in contact with the corresponding sealing surface 623, and likewise for the corresponding sealing surface 633. In some embodiments of the bottle 630, like the example in FIG. 6, the bottle 630 includes a ledge structure 635 that extends from a position on the neck of the bottle 630 to make contact with a protruding structure from the ring 610 that aligns and/or holds the ring 610 in a particular position with respect to the bottle 630 when the ring 610 attached to the bottle 630.

FIG. 7 shows a diagram of an example embodiment of the scented ring 610. The scented ring 610 is structured to include a shape and size so as to fit around the circumference of a container, such as around the neck of the bottle 630. For example, the scented ring 610 can be made into any desired shape including a rounded ring, e.g., like the circular ring shown in the example of FIG. 7, a square or rectangular ring, a triangular ring, or the like, including regular or irregular dimensions, so as to fit a variety of containers such as bottles like bottle 630 jars, and the like.

In the example shown in FIG. 7, the scented ring 610 includes one or more protruding structures 611 disposed on the interior surface of the scented ring 610, referred to as “interior anchors”. For example, in some embodiments, the scented ring 610 can include a plurality of interior anchors 611 disposed along a single axis or multiple axes of the interior surface; whereas in other embodiments, the interior anchors 611 can be one protruding structure that spans a portion or the entire circumference of the interior surface. In some implementations of the scented bottle cap system 600, the interior anchors 611 contact the ledge structure 635 of the bottle 630 to align and/or hold the scented ring 610 in a certain vertical position on the neck of the bottle 630. In such implementations, for example, the alignment of the scented ring 610 by the interior anchors 611 and the ledge structure 635 of the bottle 630 allows the scented ring 610 to remain secured, e.g., ‘anchored’, to the bottle 630 when the cap 620 is taken off the bottle 630. Moreover, for example, the interior anchors 611 can expand the surface area of the scented ring 610, which can be used to control the concentration of the scent that can be exposed from the scented ring 610 and thereby control some parameters that affect the diffusion of the scent into the environment of the bottle 630 when the cap 620 is removed.

Also shown in the example embodiment of the scented ring 610 in FIG. 7, the scented ring 610 includes one or more protruding structures 612 disposed on the exterior surface of the scented ring 610, referred to as “exterior anchors”. For example, in some embodiments, the scented ring 610 can include a plurality of exterior anchors 612 disposed along a single axis or multiple axes of the exterior surface. In the example of FIG. 7, the scented ring 610 includes two exterior anchors 612 each configured as a single protruding structure that spans the entire circumference of the exterior surface at two respective locations, e.g., an upper and a lower position on the exterior surface. In some implementations of the scented bottle cap system 600, the exterior anchors 612 are configured to make contact with a rim structure 625 of the cap 620, shown in FIG. 8A. The exterior anchors 612 can affect the alignment and/or hold the scented ring 610 in a certain position with respect to the cap 620 in certain circumstances, e.g., during fabrication of a beverage to be contained in the bottle cap system 600. In implementations, for example, the exterior anchors 612 can expand the surface area of the scented ring 610, which, like the interior anchors 611, can be used to control the concentration of the scent that can be exposed from the scented ring 610 and thereby control some parameters that affect the diffusion of the scent into the environment of the bottle 630 when the cap 620 is removed.

For example, the scent can be incorporated into the body of the scented ring 610, e.g., through the manufacturing process such as injection molding, in which the chemical agents that form the scent are embedded in the material that forms the structure of the scented ring 610. In other embodiments, for example, the scent can be produced on the scented ring 610 by providing an exterior coating to the ring body, e.g., via spray coating, printing or other techniques to coat the scented ring 610. In implementations, the scent emanates from the scented ring 610 by diffusing into the air that surrounds the scented ring 610. Generally, over time the scent would eventually diffuse to a concentration where it would be ineffective to stimulate one's olfactory senses when placed near the user, such as when the user brings the bottle neck toward his/her mouth and nose. Thus, the scented bottle cap system 600 provides a structure that controls the storage and release of the scent from the scented ring 610, thereby (i) conserving the scent for longer durations and repeated uses, and (ii) regulating the timing and concentration of emanation of the scent to the ideal moments that effectuate the user's enjoyment of the beverage in the bottle 630.

FIG. 8A shows a diagram of an example embodiment of the cap 620. The cap 620 is structured to include a shape and size so as fasten to a container, such as around the neck of the bottle 630 at the finish region, and seal the substance within the bottle 630 from leaking or otherwise escaping via the opening of the bottle 630. For example, the external design of the cap 620 can be made into any desired shape including a cylindrical shape like that shown in the example of FIG. 8A, a conical shape, rectangular shape, a triangular shape, or the like, including regular or irregular dimensions. In some implementations, the cap 620 can include two or more parts, e.g., which can provide advantageous features such as reduced weight, lower costs to manufacturing, and/or desired aesthetics.

FIG. 8B shows a diagram of an example embodiment of a two-piece cap 620B, which includes an over-cap 690A and a cap base 690B, which attaches to each other via teeth 691 on the exterior of cap base 690B that align and interface with protruding pillars 693 on the interior of over-cap 690A. The cap base 690B includes the same interior components and structure as the example embodiment of the cap 620 shown in FIG. 8A. In some embodiments, the cap 620 can include the cap 620B, in which the over-cap 690A and the cap base 690B are one piece. For example, such embodiments of the cap 620B can include forming a single cap structure from the over-cap 690A and the cap base 690B in a manufacturing process, e.g., molding or adhering the two pieces into a single piece.

Referring back to FIG. 8A the cap 620 includes a top (not shown) and a curved wall 627W, which extends from the top of the cap 620 and terminates at a bottom end that forms the opening into an interior region of the cap 620. The interior region of the cap 620 includes a hollowed portion having interior structures to interface with the bottle 630 and the scented ring 610. The interior region of the cap 620 includes the rim structure 625 located at a position from the bottom end of the curved wall 627W, such that the rim structure 625 is configured to interface with the exterior anchors 612 of the scented ring 610. For example, the rim structure 625 is shaped to lightly support the exterior anchors 612 under certain circumstances, such as prior to assembly of the cap 620 and ring 610 with the bottle 630, in which the cap 620 can support suspension of the scented ring 610 when the cap 620 is oriented with its opening downward. In such example embodiments, for example, without the rim structure 625 and/or the exterior anchors 612, the scented ring 610 can fall out of cap 620 when its opening is oriented downward.

The bottom end of the curved wall 627W is structured such that, when the cap 620 is securely attached to the bottle 630, a portion of the bottom end contacts the collar 631 and provides a lower seal between the cap 620 and the collar 631 of the bottle 630. The cap 620 is structured to have a concentric space 629 in the interior region, which can be at least between the rim structure 625 and the location of the lower seal. In the example shown in FIG. 8A, the cap 620 includes a lip 628 that that spans the circumference of the interior region of the cap 620 to make contact with the collar 631 of the bottle to form the lower seal. When the cap 620 and scented ring 610 are assembled on the bottle 630, the concentric space 629 provides a hollow volume 940, illustrated in FIG. 9, that allows scent from the scented ring 610 to diffuse within in and be contained until the cap 620 is removed.

In some embodiments, such as the examples shown in FIGS. 8A and 9, the cap 620 includes a cylindrical protuberance 624 that projects from the top of the cap 620 and is configured to align with the side wall of the opening of the bottle 630. For example, the cylindrical protuberance 624 provides a sagittal sealing surface along the interior side wall of the opening of the bottle, as illustrated in in FIG. 10A.

FIG. 9 shows a diagram depicting a cross-sectional view of the scented ring 610 coupled with the cap 620. The scented ring 610 is detachably coupled to the cap 620, such that when the cap 620 is oriented with the top upwards and its opening downwards, the scented ring 610 still resides in the interior region of the cap 620. The rim structure 625 provides sufficient support the exterior anchors 612 that allows the scented ring 610 to be suspended inside the cap 620 in this orientation. The interior side of the wall 627W includes a receiving surface 627S that allows the top side of the scented ring 610 to make contact. For example, the structure of the cap 620 and ring 610 allow for the ring 610 to be pre-loaded into the cap 620 prior to assembly with the bottle 630, e.g., such as during the bottling process of producing and packaging a beverage. In some implementations of a pre-loading process, the cap 620 can be inverted such that the opening is upwards and the top is downwards. The scented ring 610 can be secured within the interior of the cap 620, e.g., by automated machine or manually, such that the ring 610 is pushed into the interior until it makes contact with the receiving surface 627S, where the exterior anchors 612 will have over-passed the rim structure 625 and align within a conforming recess of the interior side of the wall 627W. The receiving surface 627S can assist in the alignment of the exterior anchors 612 passed the rim structure 625 and in the conforming recess of the cap 620, while allowing for various levels of force to place the ring 610 in this position.

FIG. 10A shows a diagram depicting a cross-sectional view of the scented bottle cap system 600 when the scented ring 610, the cap 620 and the bottle 630 are assembled. In this configuration, the scented ring 610 is securely attached around the neck of the bottle 630 based on the positioning of the interior anchors 611 underneath ledge structure 635. For example, when the scent ring 610 is pre-loaded in the cap 620, the cap 620 can be initially attached to the bottle 630 (e.g., during the bottling process of the beverage production) such that the ring 610 detaches from the cap 620 and securely attaches to the bottle 630. In some implementations, the cap 620 is twisted on the bottle 630 via the set of threads 623 of the bottle 630 and the corresponding set of threads 622 of the cap 620. As the cap 620 is being twisted on the bottle 630, the scented ring 610 is driven downwards along the finish region such that the interior anchors 611 is pushed past the ledge structure 635. In the example shown in FIG. 10A, the ledge structure 635 can include a sloped portion on the upper side of the ledge structure 635, and a flattened portion on the lower side of the ledge structure 635 that is perpendicular with the neck of the bottle 635, which inhibits the ring 610 at the interior anchors 611 from detaching from the neck of the bottle 635. When the cap 620 is twisted off, the scented ring 610 is able to detach from its coupling with the cap 620, yet remain on the bottle 630.

FIG. 10B shows a magnified view of the interface between the sealing surface 623 of the cap 620 and the sealing surface 633 of the bottle 630 from FIG. 10A. When the cap 620 is securely attached to the bottle 630, e.g., fully twisted on, the sealing surface 633 of the bottle 630 contacts the corresponding sealing surface 623 of the cap 620. Similarly, the optional cylindrical protuberance 624 contacts the side wall of the opening of the bottle 630.

FIG. 10C shows a magnified view of the interface between the exterior anchors 612 of the scented ring 610 and the rim structure 625 of the cap 620, and the interface between the interior anchors 611 of the scented ring 610 and the ledge structure 635 of the bottle 630, as shown in FIG. 10A. For example, the ledge structure 635 can be configured to an angle that allows the scented ring 610 to securely attach, e.g., during assembly of the scented ring 610 with the cap 620 prior to assembly with the bottle 630, in which the interior anchors 611 of the scented ring 610 effectively slide down on the top side of the ledge structure 635 until they are beneath the ledge structure 635. In some embodiments, for example, the top angle of the ledge structure 635 is in a range of 120° to 150°, such as at substantially 135°. In some embodiments, for example, the top angle of the ledge structure 635 is in a range of 105° or more and 165° or less.

FIG. 10D shows a magnified view of the interface between the lip 628 of the cap 620 and the collar 631 of the bottle 630 from FIG. 10A. When the cap 620 is securely attached to the bottle 630, the lip 628 of the cap 620 is in contact with the collar 631 of the bottle 630, forming the lower seal that creates the hollow volume 940. The hollow volume 940 provides a chamber to collect the scent that diffuses into the volume 940 from the scented ring 610 when the cap 620 is closed. In the closed position, the scent is trapped and contained in the scented bottle cap system 600. When the cap 620 is removed from the bottle 630, e.g., twisted off, the user can experience an initial burst of scent, particularly when he/she removes the cap 620 and brings it towards his/her mouth to drink the beverage inside the bottle 630. The scent continues to emanate from the scent ring 610 attached to the bottle 630 and enthuse the senses of the user during subsequent imbibing of the beverage.

A compartment providing a hollow volume 940 formed in a space between the cap 620 and the bottle 630 can be configured based on the size and shapes of the structural components of the cap 620 and bottle 630. The compartment including the hollow volume 940 is configured to collect and trap the scent that emanates from the scented ring 610 when the cap 620 is closed (e.g., tightened) on the bottle 630. For example, the system 600 is configured to trap the scent when the cap 620 is closed on the bottle 630, e.g., including in-between drinks of the beverage, to create a scent burst effect when the user opens the cap and takes the next drink. As illustrated in the example embodiment shown in FIG. 10A, the compartment including the hollow volume 940 can include one or more regions, or subcompartments, in the space between the cap 620 and the bottle 630, for example, including (i) a lower region 940A between the exterior wall of the scented ring 610, the collar 631 and the interior face of the wall 627W of the cap 620 between the rim structure 625 of the cap 620 and collar 631 of the bottle 630; (ii) a middle region 940B between the interior wall of the scented ring 610 and the neck of the bottle 630 where the ring 610 is positioned between the ledge structure 635 and the collar 631; and (iii) an upper region 940C between the interior wall of the scented ring 610, the upper portion of the ledge structure 635 and the intersection of threads 622 and 632 of the cap 620 and bottle 630, respectively. The hollow volume 940, including each of the example subcompartment regions 940A, 940B and 940C, can be structured to have a particular volume or range of volumes for capturing a desired concentration of volatile scent from the scented ring 610. For instance, in certain embodiments such as that shown in FIG. 10A, the lower region of the hollow volume 940 may be in a range from about 3,000 mm³ or less to about 1,000 mm³ or more. In some embodiments, for example, the hollow volume formed by the system 600 may be in a range from about 15,000 mm³ or less to about 100 mm³ or more, which can be configured based on the size and shape of the structures along the interior face of the wall 627W interfacing the features of the neck of the bottle 630.

FIG. 11A shows a diagram of an example embodiment of the scented ring 1110. The scented ring 1110 includes the structure of the scented ring 610, and also includes dimples 1111 (e.g., pores) that recede inward with respect to the surface of the ring 1110 and/or bumps 1112 (e.g., protrusions) that protrude outward with respect to the surface of the ring 1110. The dimples 1111 and/or bumps 1112 can be organized along the surface of the ring 1110 in a variety of arrangements, e.g., including an array of periodic or aperiodic positioning, or randomly. For example, the dimples and/or bumps 1112 provide additional surface area to the scented ring 1110 that can increase the concentration of the scent exposed to the outer environment (e.g., air), and thereby enhance the delivery of the scent to the user. In some embodiments, for example, the dimples 1111 and/or bumps 1112 can be used to create letters, shapes, or symbols as a form of advertising or product differentiation.

In some implementations, the dimples 1111 and/or bumps 1112 are formed of a size and/or shape and arranged on the scented ring 1110 to affect the direction of the scent emanating from the scented ring 1110 to the proximate environment. For example, the motion of the bottle 630 by the user to drink the beverage can increase the rate of air flow at the scented ring 1110 and affect to the volatility of the scent at the dimples 1111 and the bumps 1112. Also, for example, the dimples 1111 can be structured as holes that pass through the ring 1110 or terminate at a hollowed chamber in the body of the ring 1110 to affect the effusive properties of the scent when the cap 620 is removed from the bottle 630. In some implementations, the dimples 1111 can be arranged on the region of the scented ring 1110 that is in contact with the cap 620 when securely attached to the bottle 630, e.g., such as arranged along the exterior anchors 612 that contact the rim structure 625. In such implementations, the scent can be trapped in the hollowed chambers and their release controlled accounting for the effusive properties of the scent through the dimples 1111 and into the outer environment, e.g., near the user's nose and mouth. In some implementations, the bumps 1112 can also be structured to affect the effusive properties of the scent to enhance the sensation of the user's olfactory system.

FIG. 11B shows a diagram of an example embodiment of the scented ring 1120 that includes hollowed chambers 1115 to trap the scent and having an outer passageway for their release that accounts for the effusive properties of the scent from the chambers 1115 to the outer environment, e.g., near the user's nose and mouth. For example, the chambers 1115 can be structured to affect the effusive properties of the scent to enhance the sensation of the user's olfactory system, and thereby drinking experience. In some embodiments, the scented ring 1120 can include an arrangement of the chambers 1115 such that the outer passageways form an opening on the interior wall of the scented ring 1120, the exterior wall of the scented ring 1120, or both the interior and exterior walls of the scented ring 1120. For example, the chambers 1115 can be configured such that the outer passageways form an opening on a top surface and/or a bottom surface of the scented ring 1120. In implementations, for example, the air may rapidly flow into the chambers 1115 when the user brings the bottle 630 with the attached scented ring 1120 toward his/her face for drinking the beverage fluid, and thereby experience an enhanced effect of the scent emanating from the scented ring 1115 due to the structure of the chambers 1115 and outer passageways to affect effusion of the scent. The scented ring 1120 can include similar structures of the scented ring 610 and/or 1110, e.g., including the interior anchors 611, the exterior anchors 612, and/or the dimples 1111 and/or bumps 1112.

FIG. 12A shows a diagram of an example embodiment of the scented ring 1200. The scented ring 1200 includes the structure of the scented ring 610 or the scented ring 1110, except without the exterior anchors 612.

FIG. 12B shows a diagram of an example embodiment of the scented ring 1210. The scented ring 1210 includes the structure of the scented ring 610 or the scented ring 1110, and also includes a cut-away region 1215. This embodiment can be referred to as a scented C-ring. For example, the scented C-ring 1210 still provides the structure to be detachably coupled to the cap 620, e.g., for pre-loading, and securely attached to the bottle 630 after initial attachment of the ring-pre-loaded cap on the bottle, and yet also allows the scented C-ring 1215 to be selectively detached by the user based on the cut-away region 1215. Various embodiments of the scented ring can include a pliable material. In the example embodiments of the scented C-ring 1210, the material can allow the C-ring structure to bend slightly to have enough clearance for the scented C-ring 1210 to clear the diameter of the ledge structure 635 of the bottle 630 based on the cut-away region 1215. For example, the scented C-ring 1210 includes a pliable material to allow the scented C-ring 1210 to bend to at least a degree to have enough clearance for the cut-away region 1215 to expand and clear the diameter of the ledge structure 635 of the bottle 630 such that the scented C-ring 1210 can detach from the bottle 630. In implementations, for example, the scented C-ring 1210 can allow a user to swap scented rings as he/she chooses, and similarly allow the manufacturer to sell the scented rings separately from the bottle.

FIG. 12C shows a diagram of an example embodiment of the scented C-ring 1220 that includes the interior anchors 611 and the cut-away region 1215. In implementations, for example, the scented C-ring 1220 can allow a user to swap scented rings as he/she chooses, and similarly allow the manufacturer to sell the scented rings separately from the bottle.

In some aspects of the scented attachment for containers in accordance with embodiments of the present technology, methods are disclosed for manufacturing a scented bottle cap system to fill the bottle with a fluid, e.g., beverage, to be contained within the bottle and attaching the cap and scented ring to the bottle in a single step.

FIG. 13 shows a flow diagram an example embodiment of a method 1300 to manufacture a scented bottle cap system, such as the various embodiments of the system 600. The method 1300 includes a process 1310 to couple a scented ring, e.g., scented ring 610, 1110, 1200 or 1210, to an interior region of the cap, e.g., cap 620, to produce a ring-cap assembly. In some implementations of the process 1310, for example, the scented ring is detachably coupled to the cap such that the ring-cap assembly securely contains the scented ring in the interior region of the cap, e.g., maintaining the scented ring in the interior region even when the cap is oriented with the opening of the cap facing down. For example, the scented ring is configured to detachably couple to the cap prior to initial attachment of the ring-cap assembly with the bottle, such that the scented ring initially couples to the cap based on contact between the an exterior protruding structure of the scented ring and an interior protrusion (e.g., rim) structure of the cap, so that when the cap is initially fastened to the bottle, the scented ring transfers from being coupled to the cap to being coupled to the bottle, e.g., based on contact between the interior protruding structure of the scented ring and a protuberance structure such as a ledge feature extending from the neck of the bottle.

The method 1300 includes a process 1320 to orient the ring-cap assembly in a non-inverted position, i.e., where the opening of the cap is facing downward, in which the scented ring is securely contained in the interior region of the cap. The method 1300 includes a process 1330 to fill the bottle with a fluid, e.g., a beverage such as water, milk, juice, sports drink, alcoholic beverage, etc. The method 1300 includes a process 1340 to securely attach the ring-cap assembly to the bottle to form a ring-cap-bottle assembly, in which the scented ring attaches to the bottle and is enclosed in a compartment formed between the interior of the cap and the exterior of the neck of the bottle, and in which the cap is detachable from the bottle and decouples from the scented ring. In implementations of the process 1340, the ring-cap assembly is attached to the bottle in a single step. For example, the method 1300 allows the ‘bottling process’ of a beverage to be performed using conventional machine- or automated-equipment in existing bottle factories to perform the processes 1320, 1330 and 1340 without significant modifications to the existing bottling process set-up and infrastructure, and thereby enable mass production of scent-enhanced beverages using a scented bottle cap system in accordance with the disclosed technology in cost-conserving manner. The ring-cap-bottle assembly forms a system that (i) contains the beverage filled in the bottle, (ii) contains and conserves the scent in the compartment, preventing its escape until a user chooses to open the cap from the bottle, and (iii) affects the emanation of the scent to stimulate the user's olfactory system and enhance the user's enjoyment of the beverage.

In some embodiments, for example, the method 1300 includes a process to attach a tamper seal (e.g., sticker) to the produced ring-cap-bottle assembly that contains the fluid, e.g., providing an indicator to a user that the fluid contained in the ring-cap-bottle assembly is unadulterated and untampered. In some implementations, for example, the tamper seal is applied at a portion or completely around the interface of the cap with the bottle. In some embodiments, for example, the method 1300 includes a process to apply one or more labels to the bottle.

EXAMPLES

Examples of the scented attachment for containers include the following.

In some example embodiments, a scent delivery system for a beverage container (example B1) includes a bottle to contain a fluid beverage, the bottle structured to include a body region and a neck region, the bottle including a collar that extends outward and circumferentially around the neck region, and a ledge structure that extends outward and circumferentially around the neck region and is positioned above the collar; a scent ring including a body loaded with a volatile chemical agent to emanate from the body of the scent ring to generate a scent, the scent ring structured to include at least one interior protruding structure that projects from an interior wall of the body of the scent ring, in which the scent ring is configured to fasten around the neck region of the bottle based on contact between the at least one interior protruding structure of the scent ring and the ledge structure of the bottle, in which the at least one interior protruding structure is positioned below the ledge structure; and a cap reversibly attachable to the bottle, the cap including an interior rim structure that projects from and circumferentially around an interior cap wall of the cap, in which the cap is structured to enclose the scent ring in a compartment formed between the collar of the bottle and the interior rim structure of the cap when the cap is securely fastened to the bottle, in which the system is configured to trap the scent from the scent ring in the compartment when the cap is securely attached to the bottle and to release the scent into an outer environment of the bottle when the cap is detached from the bottle.

Example B2 includes the system of example B1, in which the scent ring includes at least one exterior protruding structure that projects from an exterior wall of the body of the scent ring.

Example B3 includes the system of example B2, in which the scent ring is configured to detachably couple to the cap prior to initial attachment of the cap and the scent ring to the bottle, in which the scent ring initially couples to the cap based on contact between the at least one exterior protruding structure of the scent ring and the interior rim structure of the cap, and when the cap is initially fastened to the bottle the scent ring transfers from being coupled to the cap to being coupled to the bottle based on contact between the at least one interior protruding structure of the scent ring and the ledge structure of the bottle.

Example B4 includes the system of example B1, in which the scent ring is operable to generate the scent without physical contact by the cap or by the bottle.

Example B5 includes the system of example B1, in which the system is operable to repeatedly trap the scent generated by the scent ring in the compartment and release the scent into the outer environment over a plurality of instances where a user attaches and detaches the cap to the bottle.

Example B6 includes the system of example B1, in which the at least one interior protruding structure includes a single interior protruding structure that spans circumferentially along at least a portion of the interior wall of the scent ring.

Example B7 includes the system of example B1, in which the at least one interior protruding structure includes a plurality of interior protruding structures that intermittently or periodically span circumferentially along the interior wall of the scent ring.

Example B8 includes the system of example B7, in which the plurality of interior protruding include two or more of the interior protruding structures that are equally spaced apart from each other.

Example B9 includes the system of example B1, in which the collar is structured to have a top side that slants downward from the surface of the neck region, and the collar is structured to have the bottom side that is substantially perpendicular to the neck region.

Example B10 includes the system of example B1, in which the cap is structured to include threads on the interior cap wall that interface with corresponding threads on the neck of the bottle to allow the cap to twist on and off the bottle.

Example B11 includes the system of example B1, in which the scent ring includes one or more pores that recede inward with respect to the surface of the body of the scent ring.

Example B12 includes the system of example B11, in which the one or more dimples include a plurality of dimples arranged along the surface of the body of the scent ring in an array of periodic or aperiodic positions, or randomly positioned.

Example B13 includes the system of example B1, in which the scent ring includes one or more protrusions that protrude outward with respect to the surface of the body of the scent ring.

Example B14 includes the system of example B13, in which the one or more protrusions include a plurality of protrusions arranged along the surface of the body of the scent ring in an array of periodic or aperiodic positions, or randomly positioned.

Example B15 includes the system of example B1, in which the scent ring includes a cut-away region across the body to allow the scent ring to be detachably coupled to the bottle, such that the scent ring is selectively detachable from the bottle.

Example B16 includes the system of example B15, in which the scent ring includes a pliable material to allow the scent ring to bend to at least a degree to have enough clearance for the cut-away region to expand and clear the diameter of the ledge structure of the bottle such that the scent ring detaches from the bottle.

Example B17 includes the system of example B1, in which the scent ring includes one or more hollowed chambers to trap the scent and having an outer passageway for release of the scent via effusion to the outer environment of the bottle when the cap is detached from the bottle.

Example B18 includes the system of example B1, in which the compartment includes a plurality of subcompartments such that different portions of the scent ring are exposed to a hollow volume of different subcompartments.

Example B19 includes the system of example B18, in which the plurality of subcompartments include (i) a lower subcompartment located between an exterior wall of the scent ring, the collar of the bottle, and a portion of the interior cap wall of the cap between the interior rim structure and the collar; (ii) a middle subcompartment located between the interior wall of the scent ring and the neck region of the bottle where the scent ring is positioned between the ledge structure and the collar; and (iii) an upper subcompartment located between the interior wall of the scent ring, a portion of the neck region of the bottle from a top side of the ledge structure to an intersection of threads on the interior cap wall that interface with corresponding threads on the neck region of the bottle, and a portion of the interior cap wall of the cap between the intersection of threads and the scent ring.

Example B20 includes the system of example B1, in which the compartment includes a hollow volume configured to trap the scent that emanates from the scent ring when the cap is securely attached to the bottle to concentrate the scent in the compartment, such that a concentrated scent is released into the outer environment of the bottle after the cap is detached from the bottle.

Example B21 includes the system of example B20, in which the hollow volume is in a range of 1 mm³ to 3 mm³.

Example B22 includes the system of example B1, in which the system is configured to release the scent to the outer environment to augment a perceived taste of the fluid beverage when drank by a user from the bottle.

Example B23 includes the system of example B21, in which the scent includes an odorous chemical agent operable to stimulate a chemoreceptor of the user's olfactory system to enhance the user's sense of smell or taste of fluid beverage.

In some example embodiments, a scent delivery system for a beverage container (example B24) includes a bottle to contain a fluid beverage, the bottle structured to include a body region and a neck region, the bottle including a collar that extends outward and circumferentially around the neck region, and a ledge structure that extends outward and circumferentially around the neck region and is positioned above the collar; and a bottle cap apparatus reversibly attachable to a bottle at the neck region to reversibly seal an opening of the bottle. The bottle cap apparatus includes scent ring including a body loaded with a volatile chemical agent to emanate from the body of the scent ring to generate a scent, the scent ring structured to include at least one interior protruding structure that projects from an interior wall of the body of the scent ring, in which the scent ring is configured to fasten around the neck region of the bottle based on contact between the at least one interior protruding structure of the scent ring and the ledge structure of the bottle, in which the at least one interior protruding structure is positioned below the ledge structure, and the scent ring structured to include at least one exterior protrusion structure that projects from an exterior wall of the body of the scent ring; and a cap including an interior rim structure that projects from and circumferentially around an interior cap wall of the cap, in which the cap is structured to enclose the scent ring in a compartment formed between the collar of the bottle and the interior rim structure of the cap when the cap is securely fastened to the bottle. The system is configured to trap the scent from the scent ring in the compartment when the cap is securely attached to the bottle and to release the scent into an outer environment of the bottle when the cap is detached from the bottle. In the system, the scent ring is configured to detachably couple to the cap prior to initial attachment of the bottle cap apparatus with the bottle, in which the scent ring initially couples to the cap based on contact between the at least one exterior protruding structure of the scent ring and the interior rim structure of the cap, and when the cap is initially fastened to the bottle the scent ring transfers from being coupled to the cap to being coupled to the bottle based on contact between the at least one interior protruding structure of the scent ring and the ledge structure of the bottle.

Example B25 includes the system of example B24, in which the compartment includes a hollow volume configured to trap the scent that emanates from the scent ring when the cap is securely attached to the bottle to concentrate the scent in the compartment, such that a concentrated scent is released into the outer environment of the bottle after the cap is detached from the bottle.

Example B26 includes the system of example B24, in which the scent ring is operable to generate the scent without physical contact by the cap or by the bottle.

Example B27 includes the system of example B24, in which the system is operable to repeatedly trap the scent generated by the scent ring in the compartment and release the scent into the outer environment over a plurality of instances where a user attaches and detaches the cap to the bottle.

Example B28 includes the system of example B24, in which the at least one interior protruding structure includes a single interior protruding structure that spans circumferentially along at least a portion of the interior wall of the scent ring.

Example B29 includes the system of example B24, in which the at least one interior protruding structure includes a plurality of interior protruding structures that intermittently or periodically span circumferentially along the interior wall of the scent ring.

Example B30 includes the system of example B29, in which the plurality of interior protruding include two or more of the interior protruding structures that are equally spaced apart from each other.

Example B31 includes the system of example B24, in which the collar is structured to have a top side that slants downward from the surface of the neck region, and the collar is structured to have the bottom side that is substantially perpendicular to the neck region.

Example B32 includes the system of example B24, in which the cap is structured to include threads on the interior cap wall that interface with corresponding threads on the neck of the bottle to allow the cap to twist on and off the bottle.

Example B33 includes the system of example B24, in which the scent ring includes one or more pores that recede inward with respect to the surface of the body of the scent ring.

Example B34 includes the system of example B33, in which the one or more dimples include a plurality of dimples arranged along the surface of the body of the scent ring in an array of periodic or aperiodic positions, or randomly positioned.

Example B35 includes the system of example B24, in which the scent ring includes one or more protrusions that protrude outward with respect to the surface of the body of the scent ring.

Example B36 includes the system of example B35, in which the one or more protrusions include a plurality of protrusions arranged along the surface of the body of the scent ring in an array of periodic or aperiodic positions, or randomly positioned.

Example B37 includes the system of example B24, in which the scent ring includes a cut-away region across the body to allow the scent ring to be detachably coupled to the bottle, such that the scent ring is selectively detachable from the bottle.

Example B38 includes the system of example B37, in which the scent ring includes a pliable material to allow the scent ring to bend to at least a degree to have enough clearance for the cut-away region to expand and clear the diameter of the ledge structure of the bottle such that the scent ring detaches from the bottle.

Example B39 includes the system of example B24, in which the scent ring includes one or more hollowed chambers to trap the scent and having an outer passageway for release of the scent via effusion to the outer environment of the bottle when the cap is detached from the bottle.

Example B40 includes the system of example B24, in which the compartment includes a plurality of subcompartments such that different portions of the scent ring are exposed to a hollow volume of different subcompartments.

Example B41 includes the system of example B40, in which the plurality of subcompartments include (i) a lower subcompartment located between an exterior wall of the scent ring, the collar of the bottle, and a portion of the interior cap wall of the cap between the interior rim structure and the collar; (ii) a middle subcompartment located between the interior wall of the scent ring and the neck region of the bottle where the scent ring is positioned between the ledge structure and the collar; and (iii) an upper subcompartment located between the interior wall of the scent ring, a portion of the neck region of the bottle from a top side of the ledge structure to an intersection of threads on the interior cap wall that interface with corresponding threads on the neck region of the bottle, and a portion of the interior cap wall of the cap between the intersection of threads and the scent ring.

Example B42 includes the system of example B24, in which the compartment includes a hollow volume configured to trap the scent that emanates from the scent ring when the cap is securely attached to the bottle to concentrate the scent in the compartment, such that a concentrated scent is released into the outer environment of the bottle after the cap is detached from the bottle.

Example B43 includes the system of example B42, in which the hollow volume is in a range of 1 mm³ to 3 mm³.

Example B44 includes the system of example B24, in which the system is configured to release the scent to the outer environment to augment a perceived taste of the fluid beverage when drank by a user from the bottle.

Example B45 includes the system of example B44, in which the scent includes an odorous chemical agent operable to stimulate a chemoreceptor of the user's olfactory system to enhance the user's sense of smell or taste of fluid beverage.

In some example embodiments, a method for manufacturing a scented bottle cap system (example B46) includes coupling a scent ring to an interior region of a cap to produce a ring-cap assembly; orienting the ring-cap assembly in a position where an opening of the cap to the interior region is facing downward, in which the scent ring is securely contained in the interior region of the cap; filling the bottle with a fluid; and securely attaching the ring-cap assembly to the bottle, in which the scent ring attaches to the bottle and is enclosed in a compartment formed between the interior region of the cap and an exterior region of a neck portion of the bottle, in which the ring-cap assembly is attached to the bottle in a single step, in which the cap is detachable from the bottle and decouples from the ring upon initial detachment from the bottle.

Example B47 includes the method of example B46, in which the attaching the scent ring to the cap includes inserting the scent ring to the interior region of the cap such that an exterior protruding structure of the scent ring is inserted past an interior protrusion structure of the cap.

Example B48 includes the method of example B46, in which when the ring-cap assembly is initially attached to the bottle, the scent ring transfers from being coupled to the cap to being attached to the bottle, in which attachment between the scent ring and the bottle is based on contact between an interior protruding structure of the scent ring and a protuberance structure extending from the exterior region of the neck portion of the bottle.

In some example embodiments, a scented bottle cap apparatus (example C1) includes a scent ring to attach around a neck of a bottle having a collar, in which the scent ring includes a body loaded with a volatile chemical agent to emanate from the body of the scent ring to generate a scent; and a cap to removably attach to the bottle and structured to enclose the scent ring in a compartment formed between the collar of the bottle and an interior portion of the cap when the cap is securely attached to the bottle, in which the system is configured to trap a scent from the scent ring in the compartment when the cap is securely attached to the bottle and release the scent into an outer environment of the bottle when the cap is detached from the bottle.

While various instances have been described with reference to the specific embodiments thereof, it should be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the true spirit and scope of the disclosure. In addition, many modifications may be made to adapt a particular situation, material, composition of matter, process, process step or steps, to the objective, spirit and scope of the invention. All such modifications are intended to be within the scope of the claims appended hereto.

While this patent document contains many specifics, these should not be construed as limitations on the scope of any invention or of what may be claimed, but rather as descriptions of features that may be specific to particular embodiments of particular inventions. Certain features that are described in this patent document in the context of separate embodiments can also be implemented in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment can also be implemented in multiple embodiments separately or in any suitable subcombination. Moreover, although features may be described above as acting in certain combinations and even initially claimed as such, one or more features from a claimed combination can in some cases be excised from the combination, and the claimed combination may be directed to a subcombination or variation of a subcombination.

Similarly, while operations are depicted in the drawings in a particular order, this should not be understood as requiring that such operations be performed in the particular order shown or in sequential order, or that all illustrated operations be performed, to achieve desirable results. Moreover, the separation of various system components in the embodiments described in this patent document should not be understood as requiring such separation in all embodiments.

Only a few implementations and examples are described and other implementations, enhancements and variations can be made based on what is described and illustrated in this patent document. 

What is claimed is:
 1. A method for producing a scented beverage, comprising: coupling a scented attachment ring to an interior region of a cap to produce a ring-cap assembly, wherein the scented attachment ring includes a body loaded with a volatile chemical agent to emanate from the body of the scented attachment ring to generate a scent; orienting the ring-cap assembly in a position where an opening of the cap to the interior region is facing downward, wherein the scented attachment ring is securely contained in the interior region of the cap; filling a drinking container with a fluidic beverage, wherein the drinking container includes a main body to contain the fluidic beverage and a neck that is narrower than the main body, the drinking container having an opening at an end of the neck opposite the main body to dispense the fluidic beverage out of the drinking container; and securely attaching the ring-cap assembly to the drinking container such that the scented attachment ring is positioned around and unaffixed to the neck of the drinking container proximate the opening of the drinking container and is covered by the cap when the cap is attached to the drinking container, thereby locking in the scent generated by the scented attachment ring based on engagement of the cap and the drinking container when the cap is attached to the drinking container, in which the scent is releasable to an environment proximate the opening of the drinking container when the cap is unattached to the drinking container.
 2. The method of claim 1, wherein the scented attachment ring and the cap are securely attached to the bottle concurrently and as a single component.
 3. The method of claim 1, further comprising: prior to the orienting the ring-cap assembly, coupling the scented attachment ring to the cap when the opening of the interior region of the cap is facing upward.
 4. The method of claim 1, wherein the scented attachment ring is coupled to the cap when the opening of the interior region of the cap is facing downward, and the orienting the ring-cap assembly in the position where the opening of the cap to the interior region is facing downward includes maintaining the cap in the position where the opening of the cap to the interior region is facing downward.
 5. The method of claim 1, further comprising: manufacturing the scented attachment ring by compression or injection molding.
 6. The method of claim 1, wherein the fluidic beverage includes one or more of water, soda, a liquid nutrient, an electrolyte, a sports drink, or alcohol. 